Поиск по каталогу |
(строгое соответствие)
|
- Профессиональная
- Научно-популярная
- Художественная
- Публицистика
- Детская
- Искусство
- Хобби, семья, дом
- Спорт
- Путеводители
- Блокноты, тетради, открытки
FSW of AZ80A Mg alloy - Peak Temperature Distribution and Correlation. A Numerical and Experimental Investigation
В наличии
Местонахождение: Алматы | Состояние экземпляра: новый |
Бумажная
версия
версия
Автор: Dr. Dhanesh Babu S.D. and Dr. Sevvel P
ISBN: 9786204730530
Год издания: 1905
Формат книги: 60×90/16 (145×215 мм)
Количество страниц: 212
Издательство: LAP LAMBERT Academic Publishing
Цена: 36835 тг
Положить в корзину
Способы доставки в город Алматы * комплектация (срок до отгрузки) не более 2 рабочих дней |
Самовывоз из города Алматы (пункты самовывоза партнёра CDEK) |
Курьерская доставка CDEK из города Москва |
Доставка Почтой России из города Москва |
Аннотация: In this Book, the domination and significance of several parameters of FSW process on peak temperature during joining of AZ80A alloy were investigated experimentally and numerically. Temperature correlation for AZ80A magnesium alloy was developed, for the first time, to accurately predict the peak temperature in the FSW process using the Minitab tool. The distribution of temperature on the various regions of the workpiece (AZ80A Mg alloy) was simulated by a steady-state heat transfer numerical approach using Comsol software. The predicted and FEA simulated peak temperatures were validated against experimental temperature measurements. Finally, a numerical parametric study was conducted taking into consideration the various parameters namely welding speed, axial load, and rotational tool speed to identify the most influential parameter affecting the peak temperature in the FSW process. In addition to this, a thermo mechanical model was formulated and developed using the COSMOL software to predict the temperature diffusion around the FSW tool with 4 unique profile geometries and to understand the role, impact of these pin geometries in regulating the generated frictional heat.
Ключевые слова: Friciton Stir Welding, peak temperature, Tool Pin Geometry, Microstructural Attributes, mechanical properties, AZ80A Mg alloy, Thermomechanical Model